Your search keyword '"Heintz-Buschart A"' showing total 5 results

1. Organic agricultural practice enhances arbuscular mycorrhizal symbiosis in correspondence to soil warming and altered precipitation patterns

Author

Martin Schädler, Witoon Purahong, Anna Heintz-Buschart, Claudia Breitkreuz, Beatrix Schnabel, Christiane Roscher, Thomas Reitz, Sara Fareed Mohamed Wahdan, François Buscot, and Biosystems Data Analysis (SILS, FNWI)

Subjects

Agroecosystem, Diversisporaceae, Plant Roots, Microbiology, Soil, 03 medical and health sciences, Glomeraceae, ddc:570, Mycorrhizae, arbuscular mycorrhizal symbiosis, soil warming, altered precipitation patterns, Symbiosis, Soil Microbiology, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Organic Agriculture, 0303 health sciences, biology, 030306 microbiology, Intensive farming, business.industry, biology.organism_classification, Agronomy, Agriculture, Organic farming, Species richness, business, Gigasporaceae

Abstract

Climate and agricultural practice interact to influence both crop production and soil microbes in agroecosystems. Here, we carried out a unique experiment in Central Germany to simultaneously investigate the effects of climates (ambient climate vs. future climate expected in 50–70 years), agricultural practices (conventional vs. organic farming), and their interaction on arbuscular mycorrhizal fungi (AMF) inside wheat (Triticum aestivum L.) roots. AMF communities were characterized using Illumina sequencing of 18S rRNA gene amplicons. We showed that climatic conditions and agricultural practices significantly altered total AMF community composition. Conventional farming significantly affected the AMF community and caused a decline in AMF richness. Factors shaping AMF community composition and richness at family level differed greatly among Glomeraceae, Gigasporaceae and Diversisporaceae. An interactive impact of climate and agricultural practices was detected in the community composition of Diversisporaceae. Organic farming mitigated the negative effect of future climate and promoted total AMF and Gigasporaceae richness. AMF richness was significantly linked with nutrient content of wheat grains under both agricultural practices.

Published

2021

2. Unraveling spatiotemporal variability of arbuscular mycorrhizal fungi in a temperate grassland plot

Author

François Buscot, Daniel Prati, Ellen Kandeler, Tesfaye Wubet, Sven Marhan, Kathleen M. Regan, Hans-Peter Piepho, Markus Fischer, Runa S. Boeddinghaus, Doreen Berner, Sandra Klemmer, Anna Heintz-Buschart, and Kezia Goldmann

Subjects

Soil texture, Biodiversity, 580 Plants (Botany), Biology, Plant Roots, Microbiology, Grassland, Soil, 03 medical and health sciences, Germany, Mycorrhizae, RNA, Ribosomal, 18S, Biomass, Soil Microbiology, Research Articles, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Trophic level, Abiotic component, 0303 health sciences, Biomass (ecology), geography, geography.geographical_feature_category, 030306 microbiology, Ecology, Plants, biology.organism_classification, Arbuscular mycorrhiza, Seasons, Species richness, Research Article

Abstract

Summary Soils provide a heterogeneous environment varying in space and time; consequently, the biodiversity of soil microorganisms also differs spatially and temporally. For soil microbes tightly associated with plant roots, such as arbuscular mycorrhizal fungi (AMF), the diversity of plant partners and seasonal variability in trophic exchanges between the symbionts introduce additional heterogeneity. To clarify the impact of such heterogeneity, we investigated spatiotemporal variation in AMF diversity on a plot scale (10 × 10 m) in a grassland managed at low intensity in southwest Germany. AMF diversity was determined using 18S rDNA pyrosequencing analysis of 360 soil samples taken at six time points within a year. We observed high AMF alpha‐ and beta‐diversity across the plot and at all investigated time points. Relationships were detected between spatiotemporal variation in AMF OTU richness and plant species richness, root biomass, minimal changes in soil texture and pH. The plot was characterized by high AMF turnover rates with a positive spatiotemporal relationship for AMF beta‐diversity. However, environmental variables explained only ≈20% of the variation in AMF communities. This indicates that the observed spatiotemporal richness and community variability of AMF was largely independent of the abiotic environment, but related to plant properties and the cooccurring microbiome.

Published

2019

3. Organic agricultural practice enhances arbuscular mycorrhizal symbiosis in correspondence to soil warming and altered precipitation patterns

Author

Wahdan, Sara Fareed Mohamed, primary, Reitz, Thomas, additional, Heintz‐Buschart, Anna, additional, Schädler, Martin, additional, Roscher, Christiane, additional, Breitkreuz, Claudia, additional, Schnabel, Beatrix, additional, Purahong, Witoon, additional, and Buscot, François, additional

Published

2021

4. Unraveling spatiotemporal variability of arbuscular mycorrhizal fungi in a temperate grassland plot

Author

Goldmann, Kezia, primary, Boeddinghaus, Runa S., additional, Klemmer, Sandra, additional, Regan, Kathleen M., additional, Heintz‐Buschart, Anna, additional, Fischer, Markus, additional, Prati, Daniel, additional, Piepho, Hans‐Peter, additional, Berner, Doreen, additional, Marhan, Sven, additional, Kandeler, Ellen, additional, Buscot, François, additional, and Wubet, Tesfaye, additional

Published

2019

5. Unraveling spatiotemporal variability of arbuscular mycorrhizal fungi in a temperate grassland plot.

Author

Goldmann, Kezia, Boeddinghaus, Runa S., Klemmer, Sandra, Regan, Kathleen M., Heintz‐Buschart, Anna, Fischer, Markus, Prati, Daniel, Piepho, Hans‐Peter, Berner, Doreen, Marhan, Sven, Kandeler, Ellen, Buscot, François, and Wubet, Tesfaye

Subjects

VESICULAR-arbuscular mycorrhizas, GRASSLAND soils, ABIOTIC environment, SOIL texture, PLANT diversity, SPECIES diversity, ECTOMYCORRHIZAS

Abstract

Summary: Soils provide a heterogeneous environment varying in space and time; consequently, the biodiversity of soil microorganisms also differs spatially and temporally. For soil microbes tightly associated with plant roots, such as arbuscular mycorrhizal fungi (AMF), the diversity of plant partners and seasonal variability in trophic exchanges between the symbionts introduce additional heterogeneity. To clarify the impact of such heterogeneity, we investigated spatiotemporal variation in AMF diversity on a plot scale (10 × 10 m) in a grassland managed at low intensity in southwest Germany. AMF diversity was determined using 18S rDNA pyrosequencing analysis of 360 soil samples taken at six time points within a year. We observed high AMF alpha‐ and beta‐diversity across the plot and at all investigated time points. Relationships were detected between spatiotemporal variation in AMF OTU richness and plant species richness, root biomass, minimal changes in soil texture and pH. The plot was characterized by high AMF turnover rates with a positive spatiotemporal relationship for AMF beta‐diversity. However, environmental variables explained only ≈20% of the variation in AMF communities. This indicates that the observed spatiotemporal richness and community variability of AMF was largely independent of the abiotic environment, but related to plant properties and the cooccurring microbiome. [ABSTRACT FROM AUTHOR]

Published

2020